Custom-designed motion-based games for older adults: a review of literature in human-computer interaction

Many older adults, particularly persons living in senior residences and care homes, lead sedentary lifestyles, which reduces their life expectancy. Motion-based video games encourage physical activity and might be an opportunity for these adults to remain active and engaged; however, research efforts in the field have frequently focused on younger audiences and little is known about the requirements and benefits of motion-based games for elderly players. In this paper, we present an overview of motion-based video games and other interactive technologies for older adults. First, we summarize existing approaches towards the definition of motion-based video games – often referred to as exergames – and suggest a categorization of motion-based applications into active video games, exergames, and augmented sports. Second, we use this scheme to classify case studies addressing design efforts particularly directed towards older adults. Third, we analyze these case studies with a focus on potential target audiences, benefits, challenges in their deployment, and future design opportunities to investigate whether motion-based video games can be applied to encourage physical activity among older adults. In this context, special attention is paid to evaluation routines and their implications regarding the deployment of such games in the daily lives of older adults. The results show that many case studies examine isolated aspects of motion-based game design for older adults, and despite the broad range of issues in motion-based interaction for older adults covered by the sum of all research projects, there appears to be a disconnect between laboratory-based research and the deployment of motion-based video games in the daily lives of senior citizens. Our literature review suggests that despite research results suggesting various benefits of motion-based play for older adults, most work in the field of game design for senior citizens has focused on the implementation of accessible user interfaces, and that little is known about the long-term deployment of video games for this audience, which is a crucial step if these games are to be implemented in activity programs of senior residences, care homes, or in therapy

Motion-Based Video Games for Older Adults in Long-Term Care

Older adults in residential care often lead sedentary lifestyles despite physical and cognitive activities being crucial for their well-being. Care facilities face the challenge of encouraging their residents to participate in leisure activities, but as the impact of age-related changes grows, few activities remain accessible. Video games in general – and motion-based games in particular – hold the promise of providing mental, physical and social stimulation for older adults. However, the accessibility of commercially available games for older adults is not considered during the development process. Therefore, many older adults are unable to obtain any of the benefits. In my dissertation, this issue is addressed through the development of motion-based game controls that specifically address the needs of older adults. The first part of this thesis lays the foundation by providing an overview of motion-based game interaction for older adults. The second part demonstrates the general feasibility of motion-based game controls for older adults, develops full-body motion-based and wheelchair-based game controls, and provides guidelines for accessible motion-based game interaction for institutionalized older adults. The third part of this thesis builds on these results and presents two case studies. Motion-based controls are applied and further evaluated in game design projects addressing the special needs of older adults in long-term care, with the first case study focusing on long-term player engagement and the role of volunteers in care homes, and the second case study focusing on connecting older adults and caregivers through play. The results of this dissertation show that motion-based game controls can be designed to be accessible to institutionalized older adults. My work also shows that older adults enjoy engaging with motion-based games, and that such games have the potential of positively influencing them by providing a physically and mentally stimulating leisure activity. Furthermore, results from the case studies reveal the benefits and limitations of computer games in long-term care. Fostering inclusive efforts in game design and ensuring that motion-based video games are accessible to broad audiences is an important step toward allowing all players to obtain the full benefits of games, thereby contributing to the quality of life of diverse audiences